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The Vertical Cross Section of an Irrigation Canal Is Modeled

Question 7

Multiple Choice

The vertical cross section of an irrigation canal is modeled by The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E) where x is measured in feet and The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E) corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E) feet deep. Round your answer to three decimal places.


A) The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E)
B) The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E)
C) The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E)
D) The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E)
E) The vertical cross section of an irrigation canal is modeled by where x is measured in feet and corresponds to the center of the canal. Use the integration capabilities of a graphing utility to approximate the fluid force against a vertical gate used to stop the flow of water if the water is feet deep. Round your answer to three decimal places. A) B) C) D) E)

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